IGF1R controls mechanosignaling in myofibroblasts required for pulmonary alveologenesis
Hua He, … , Cheng-Lun Na, Jeffrey A. Whitsett
Hua He, … , Cheng-Lun Na, Jeffrey A. Whitsett
Published February 16, 2021
Citation Information: JCI Insight. 2021;6(6):e144863. https://doi.org/10.1172/jci.insight.144863.
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Research Article Pulmonology

IGF1R controls mechanosignaling in myofibroblasts required for pulmonary alveologenesis

Abstract

Ventilation throughout life is dependent on the formation of pulmonary alveoli, which create an extensive surface area in which the close apposition of respiratory epithelium and endothelial cells of the pulmonary microvascular enables efficient gas exchange. Morphogenesis of the alveoli initiates at late gestation in humans and the early postnatal period in the mouse. Alveolar septation is directed by complex signaling interactions among multiple cell types. Here, we demonstrate that IGF1 receptor gene (Igf1r) expression by a subset of pulmonary fibroblasts is required for normal alveologenesis in mice. Postnatal deletion of Igf1r caused alveolar simplification, disrupting alveolar elastin networks and extracellular matrix without altering myofibroblast differentiation or proliferation. Moreover, loss of Igf1r impaired contractile properties of lung myofibroblasts and inhibited myosin light chain (MLC) phosphorylation and mechanotransductive nuclear YAP activity. Activation of p-AKT, p-MLC, and nuclear YAP in myofibroblasts was dependent on Igf1r. Pharmacologic activation of AKT enhanced MLC phosphorylation, increased YAP activation, and ameliorated alveolar simplification in vivo. IGF1R controls mechanosignaling in myofibroblasts required for lung alveologenesis.

Authors

Hua He, John Snowball, Fei Sun, Cheng-Lun Na, Jeffrey A. Whitsett

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Figure 1

Fibroblast specific inactivation of Igf1r causes alveolar simplification.

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Fibroblast specific inactivation of Igf1r causes alveolar simplification...
(A) Schematic showing the time points of tamoxifen administration and analysis. Tamoxifen was administrated to pups on P0 and P1 via i.p. injection. Lungs were analyzed on P6 and P14. (B) Representative H&E staining of control and Igf1rGli1Δ/Δ lungs collected on P6 and P14 is shown. Scale bars: 100 μm. (C) Mean linear intercept (MLI) and alveolar density on P6; **P < 0.01, n = 6 for control and n = 7 for Igf1r Gli1Δ/Δ; and on P14; ****P < 0.0001, n = 7 for control or Igf1r deleted. (D) Lung volume measurement on P6 and P14, **P < 0.01, n = 5–7 for each group. (E) Reconstruction of 3D confocal images of lungs stained for podoplanin (PDPN) on P6 and P14. Scale bars: 50 μm. Yellow arrows indicate alveolar entrances; red arrow shows secondary septa. (F) Quantification of airspace volume and alveolar surface area was measured from surface-rendering images. Airspace volume: P6; *P < 0.05, and P14; *P < 0.05, Alveolar surface area: P6; ***P < 0.001, P14; *P < 0.05, all measurements represent n = 3–4 mice per genotype. A 2-tailed Student’s t test was used.